Apparatus for pressing glass articles.



W. J. MILLER.

APPARATUS EUR PRESSING GLASS ARTICLES.

AFPLIGATIOH FILED APB. 9, 1913.

Patented Mar. 9, 1915.

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7. I ;rran a WITNESSES APPLIGATION FILED APB.. 9, 1913.

Patented Mar. 9, 1915.

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WITN ESSES W. I. MILLER. APPARATUS POE MESSING GLASS AMIGLES. APPLICATION FILED ABE. 9, 1913.

1,1 30,918. Patented Mar. 9, 1915.

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APPLICATION FILED APR. 9, 1913. 1,1 30,918 Patented Mar. 9, 1915.

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W. J. MILLER. APPARATUS FOR PRESSING GLASS ARTICLES. APPLICATION FILED APR. 9, 1913.

1,130,918. Patented Mar. 9, '1915,

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wl'rNl-:ssEs 1,6 www W. J. MILLER. APPARATUS FOR PRBSSING GLASS ARTICLES. APPLICATION FILED APR. 9, 1913.

INVENTOR UNITED STATES, OFFICE.

WILLIAM J. MILLER, SWISSVALE, PENNSYLVANIA.

PPARATUS FOR IERESSIG GLASS ARTICLES.

To all'whom 'it may concern.'

Be it known that I, WILLIAM J MILLER, a citizen of the United States, residing at Swissvale, in the county of Allegheny and State of Pennsylvania, have invented certain new and useful Improvements in Apparatus for Pressing Glass Articles, of which lthe following is a specification.

My invention consists of an improvement in an apparatus or machine for pressing glass articles, and has for its object to provide, in a machine of this type, automatically operative mechanism for performing the several operations, by means of fluid pressure actuated mechanism, embodying initiating, timing, retarding, actuating and locking devices for performing the several operations continuously, under the control ofthe operator, as shall be more fully hereinafter described.

The machine embodying the improvements is one of a well-known type in which -a plurality of glass pressing molds are mounted upon an intermittently rotatable table, the machine having actuating mechanism for intermittently swinging the table and the molds, locking and unlocking the table, cushioning the stroke of the table shifting mech anism, shears and means for actuating them, plunger mechanism and operating mechanism therefor, means for augmenting, maintaining uniform, or reducingthe pressure of the plunger in the glass, etc., said parts being actuated by a. compressed fluid, as lair, and embodyingthe several features of im provement hereinafter described.

In the drawings illustrating one preferred form of the invention, Figure v1 is a view of the machine in side elevation. Figs. 2, 3 and 4; are detail sectional views in plan and vertical section respectively, illustrating the table operated releasing valve mechanism. Fig. 5 is a plan view ofthe machine of Fig. 1.- Fig.` 6 is a horizontal 'sectional view, taken on the line VI. VI. of Fig. 1. Fig. 7 is a vertical sectional view of the plunger cylinder and valve, the exhaust controlling mechanism,.etc. Fig. 8 is a detail view in elevation of the timer device. Fig. 9 isa sectional view of the plunger cylinder valve in shifted position, supplying air pressure to the piston. Fig. lOvis a similar view showing all ports closed; Fig. 11 is a similar viewv showing the pressure port partly closed and embodying a modified construction,-

Specicatio'n of Letters Patent. v

' Fig. 13 is a horizontal detail sectional Patented-Mar. 9, 1915.

Application filed April 9, 1918. Serial No. 760,057.

v Fig. 12 is a similar view showing the valve partly shifted to throttled exhaust position. view, taken on the linet XIII. XIII. of Fig. 7. Fig. 14 isa verticalsectional detail view of thel shear mechanism, Fig. 15 is an under plan view of Ithe'shear mechanism. Fig. 16 is a sectional detail view of the releasing valve for initiating the several operative movements of the dierent parts. Fig. 17 is an enlarged sectional view,J indicated by the line XVII. XVII. ofV Figi 6, showing the rotating and locking mechanism for the table.

Fig. 18 is a sectional detail view at right-angles to lF ig. 17, showing the inner portion of the locking cylinder and the latch device for the shifting lever. Fig. 19 is an enlarged vertical sectional detail view of the automatic valve mechanism for locking the table, indicated by the line XIX. XIX. of Fig. 17, Fig. 20 is an enlarged sectional detail 'view of the retarding valve interposed between` the said automatic valve and the shifting cylinder. Fig. 21 is a horizontal sectional View ofthe shifting cylinder and its connected parts. view, showing the several operating parts inv segregated arrangement with their connected piping, etc.1 Fig. 23 is a sectional detail view like Fig.'l9 showing the valve lowered.

Fig. 22 is a diagrammatic The machine as. agwhole consists .of the p several main features'compris'ing the frame of the apparatus, embodying a main' station-l ary table 2'carried by any suitable fr 'ame' work, as columnsor legs 3,'u'sually provided .90 with supporting wheels", whereby t the appa-j` yf ratus may be moved around 'u'ponv thefloor."vr

Rotatably mounted above the 'table 2fis'the' mold supporting table'l of circular form, revolubly carried on a'series of supporting balls 5 running in' a suitable''annular groove and arounda central supporting-spindle or standard d of' well-knownconstruct1on,"or

in any yother convenient manner, whereby' lto centralize the mold supporting tableforl its. intermittent revolution and operation.

spaced as tobe brought consecutively inf loo register with a pair of shear blades 81 and v Pressing plunger '9, ylflcateclf yertcally above the molds. l kTheniaehine is so dcsignedand the several working parts so proportioned and arbetween them abovethe mold by the-work man; to effect shifting rotation of the table carrying the mold and molten glass around one space to register with the plunger; to time the operation of the table shifting mechanism under the control of the initial controlling release valve to provide sufficient time 'for the cutting and dropping of the glass before the table is actuated; to shift the table and to cushion or retard its actu-- ating mechanism at the end of its movement, avoiding jars or shocks; to then auto." matically actuate release valve mechanism by an abutment on the'tableitself to set the plunger mechanism into motion. by its controlling valve, embodying timing and pressure-controlling valve mechanism; to with draw the plunger; and to eiect the performn ance of these several functions through interacting and linterdependent fluid pressure connections and mechanism, adapted to carry out the functions without any attention from the operator, after actuating the initial release valve. f Y

The shears are operated by the piston of the {luid-controlled cylinder A. Y The table 4 is shifted by the piston of the fluid conu trolled cylinder B, mounted beneath the table with its connected parts, the fluid supply thereto having circulation through a re tardngI valve C under control of the automatic valve D, which is in direct communication with the .initial 'release or bleeder valve E, the automatic valve D beingl directly connected to the main air supply pipe S.

The plunger 9 is mounted at the lower end of the usualspindle 10, with the accompanying spring mechanism 11 for cushioning the stroke, vertically sliding by its frame 12 on spindle 13, spindle 10 extending into the plunger cylinder F mounted on they supporting bracket 14:, carried by columns 13.

The timer G for the plunger cylinder is mounted on the same bracket, as shown, and is directly connected with the valve casing f of plunger cylinder F, whereby to control the shifting operation thereof. The supply and exhaust of fluid pressure to the cylinder F to effect lowering of the plunger at a predetermined speed and limit of pressure, is

controlled by valvef2 and its parts.

Incidentally,the invention has in view to provide plunger mechanism so controlled as to avoid undue pressure of the molten glass within the mold, to prevent stalling or interruption of the operation of the plunger due to any obstruction; to control the dwell of the plunger within the glass in the mold, and the amount and pressure ot the actuating fluid, independent of the pressure in the main line S. Valve f2 of plunger cylinder F is, like automatic valve D,lin direct con1- munication with main air supply S, the-operation of the valve f2 and of its controlled plunger being subject to the retarding action of embodied mechanism, hereinafter described.

Stcar mechanism/. The shear mechanism A. consists of a cylinder mounted upon one of the standards 13 having a piston head 15 on the inner end of a stem 16 extending out through the end of the cylinder A, having a terminal cross head 17 provided with pins 18, 18, in notched engagement with the rear outer portions of blades 8, said blades being pivoted on a rivet or stud 19 carried in a suitable support 20 extending out underneath cross head 17. Support 20 is loosely clamped underneath extension support `a of cylinder A and iS held thereto by bolts a which pass through extension a and are tapped into a cross bar a? which `in turn is connected by soldering or otherwise to leaf spring aa extending out underneath the pivoting portions of shear blades 8, to hold them together in shearing contact. 4By this means bar a2 and support 20 are held tightlyin position. The shears and support 2O may thus be bodily removed by looseningbolts a', the construction eiecting close adjustment of the shears with relation to each other and the top of the mold, and quick changing of blades. Fluid pressure is supplied to cylinder A by branch pipe 21, which is in direct communication by its upper terminal with the interior of the automatic valve D.

Piaf/ger cylinder volver-The valve con.- trolling the plunger piston is located within valve casing f on top `of the cylinder F. At one end of valve casing f is a supplemental valve casing fu having a vchamber fm which is in communication .with the" cylinder F above head F -by pipe'fs. A small piston f1* is mounted within chamber f and is .provided with a stem yf1" lextending loosely Leading upwardly from chamber lfw' at the inner side of piston f1* is a small port f controlled by -the full limit of its downward travel, the

plunger entering into the mold 7. The pressure above head F is limited somewhat by the area of the inlet port f" and it is de sirable that the plunger be maintained in the glass at a pressure considerably less than eck valve f seated by pressure of spring` that of the main supply pipe S, to preventcrushing or straining ofv the glass, andato maintain the pressure by the plunger at a limited maximum pressure. It is therefore desirable to cut off the pressure on head F" when a predetermined pressure in cylinder pressure will escape to the atmosphere past' spring-pressed valve/:18, leaving head f1* thrust over to the left. When valve f2 is shifted over to the left, air enters port 7", and the plunger descends into the glassv in the mold, e'ecting resistance, the pressure.

above head-F increases until it is automatically cut off by re-shifting of the valve f2. This air pressure passes from cylinder F by pipe )als to chamber 7-12 and, being greater than the reduced pressure at tha-other side of head f, due to exhaust port fm, said head is shifted over, and its stem f shifts valve f2 in the reverse direction, closf ing the supply, as in Fig. 10. If, however, it is desired to gradually increase the pressure on head F, after the plunger is in the mold and the glass has nearly but not quite filled the cavity, to insure further pressure and full formation of the article, the valve f2 may be shifted back. only suliiciently far to partly cover supplyport f7, as in Fig. 11, by reducing the length of stem fw. the other hand, it is desired to lessen the pressure onthe plunger after it is inserted in the glass in the mold, valve f2 may be shifted -suiiiciently far to cause exhaust port 4 to slightly. overlap port f7, as in Fig. 12, y increasing theilength of stem fw.

' The lengthening or shortening of stem f1 may be accomplished by the construction shown in Figs. 11 and 12, wherein the stem fw is made separate from the head fn as' by screwing its threaded stem into the head and ixedly holding it by a lock nut or screw,

as shown, or other suitable means.

the pressure of spring f. by screw f2 on check valve f the operation of said valve in controlling the exhaust of air from be'- hind head f to the atmosphere may be accurately regulated, so as to determine the -resistance to head f14 and regulate the operation of said head under pressure by pipe fla from the interior of. theY cylinder F, so that the pressure onv theplunger in themold may thus be 'accurately regulated. by. theoutlet 1f, on-

valve f18; By ,this means the filling of the moldcavity, around, the plunger, may be accurately regulated with varying conditions of quality of glass, etc.

Automatic @aloe D.-This valve has a four-fold function; first, to unlock and lock the rotatable table 4 by its reciprocable stem 22 having. the tapered terminal adapted to interengage with the registering socket '23.'-

in the under portion of table 4, under con'- trol of the initial release .valve E; second,"

to admit direct air pressure to cylinder A to close the shears upon actuation of release valve E, and tov open the shears; third, to

supply retarded air pressure to table shifting cylinder; and, fourth, to supply air pressure to the other end of shifting cylinder B to reverse the shifting mechanism for the next movement. lTo this end the automatic valve D is provided in its lower portion with a cylindrical valve chamber d', within which is `mounted thevertically reciprocating controllingvalve d2 connected .with the lower endlof plunger rod-.22, as shown in Figs. 19 and23, the valve (Z2 having a reduced middle area or cross section, transverse air sup'- ply ports d3 and d4 respectively, and an exhaust port d1. adapted to register with pipe 21 or21d respectively and with port Z5 opening'. to the-atmosphere. Inserted between the lower end or cap d6 of the casing of valve D and the lower end of said valve Z2 is ;a cushioning spring 617, a minute leakage portds communicating frornfport d4 to the lower cavity of the casing. Said cavity is incommunication with the release or bleeder valve E by a pipe24, connected at its other end with the lower portion of said valve (see.

punty rod into the upper portion of the mold and in register with the shear blades 8, he lowers the punty rod upon lever e at l .the proper moment, thereby releasing pres- It will be readily seen thatbyv controlling vIt is :desirable that the operationl ofthe rotatable table to carryv the lled mold around yfinto the next position in register with plunger 9 be temporarily retarded after the admission of vair pressure to the shear cylinder in order to give suicient time for the sheared glass unit to settle Within the mold,

l the casing C at one side thereof and into the lower end of a chamber c2 having an upwardly extending port c3 and intervening check valve c4 seating against a closing seat,

:cutting off communication and normally 'pressed upwardly by a cushioning spring 05,'

' and direct air pressure, when furnished. A

port c6 communicates between chamber c2 and main chamber c at the lower end of the casing, a similar portI o7 communicatmg between .chamber c and port c3 at a higher level and substantially opposite the inner end of a utilizing supply pipe connection 21', leading to shifting cylinder B. Upon valve Z2 of automatic valve D being lowered, upon actuation of releasing valve E, direct air pressure passes to branch pipe 21C and through port c underneath weight o,` lifting it to the top of cylinderl c, uncovering f port c7 and establishing communication to pipe 21b and shifting cylinder B. At the same time direct air pressure passes upwardly through port c8 and through transverse port 08 to the upper end of chamber c, thereby equalizing the pressure and allown ing weight c to fall, and thus cutting ofi the supply of air to shifting cylinder B, at the termination of its stroke. A controlling valve e9 accurately adjusts the amount of circulation through port o8 in either direc-- tion, whereby to adjust or control the speed of operation of the weight c', either upwardly or downwardly. When weight c is raised, air will p`a`ss freely by pipe 21b to shifting cylinder B, operating it before the weight c falls.

Shifting cylinder B.-This cylinder is mounted stationarily in the main frame below stationary table 2 (see Fig. l), and is designed for shifting table 4 more or less promptly upon cutting oii" the glass into one of the molds 7, under control of retarding valve C. Itis provided with a piston head bk and a reciprocable plunger rod b extending out through one end of the cylinder and connected by a cross head b2 having-pins b3 and suitable sliding blocks within a slot b" of shifting arm b5 rotatably mounted on the central spindle of the machine, and carrying at. its outer, end a vertically reciprocable shifting pin 24". Said pin, like locking pin 22,- is adapted to engage one of the sockets 23 in the under edge portion of rotatable table 4 to shift the table. At its lower end `pin 24" is pivotally connected, as at 2,5, with shifting lever 26 pivoted at 27 on the hub portion of. the shifting arm b5 which is rotatably mounted around the central spindle. A spring 28 normally lifts the outer end of lever 26 and -pin 24", by its connection with the lever at one end, and with a connectingv pin or eye 29 at the other end secured to the housing of pin 24b at the outer end of arm b5. Spring 28 acts to hold pin 24:b up

against the under side of table 4. during re-4 verse movementof the plunger head of cylinder B, and to draw it into interlocking engagement with registering socket 23 when thrown back for the next operation, after having shiftedl the table.

Upon admission of Huid pressure by pipe 2].b through the retarding valve, as above described, upon lowering of valve d2, the inn Aner end 80 of lever 26, (being lowered to the and d through port d8, upon closing of` initiating release valve E. When valve d and stem 22 'are lowered, however, spring actuated latch d engages over the top of lug d, holding the valve and stem downwardly, until released. Upon arm extension 30 swinging around upon rotation of the table by actuation of shifting cylinder B, it strikes against the upperend of latch d10, throwing' it over from engagement, whereupon arm d1 rises under action of the air pressure and balancing spring d?, inserting tapered end of plunger 22 in socket 23 to hold the table, and at the same time withdrawing plunger rod 24b from its socket 23, n

as shown in Fig. 12, ready for the reverse movement upon reversal of plunger b of shifting `cylinder B. Locking spindle 22 will now remain in socket 23 until the next operation of initiating valve E. When valve (Z2 is shifted upwardly, port d4 registers with pipe 2id leading to the other end of shifting cylinder B. Saidpipe 21d opens into the end of a cushioning valve casing ,66 having a. main cavity b" communicating by port bs with the interior of cylinder B and with a byass port b opening at one end to pipe 21d. ort b9 has a small port b1 opening to chamber b controlled by a screw neekat the end of its movement.

dle valve 7211. A valve A612 closes oneend'of chamber 67 toward `su 'ply pipe 21d and Ais provided with `a stem 13 extending out beyond'the inner end o-cylinder'li Sint-io 'range of abutment t on crosshead b2, a spring 'Z217 normally pressing valve .blz to its vseat to close circulation to pipe 21d, when cross head b2 is beyond end of stem tra. Crossliead b2 slides on rod '518. v

When valve d2 'is lowered, giving pressure through pipe 2l-2=1c*21b Zto cylinder B, pipe 21d then registers with the exhaust. butment b1 4is so located on cross head t? that it will lengage :stem vZ513 on the back stroke, yunseating valve t and giving free inward circulation to cylinder B from pipe 21d. On the forward stroke, valve will be held-oil' its seat untilpiston t traveled part way, valve 1612 'then seating by spring b and throttlin'gthe exhaust 'fromin Y-front of piston 6. By :reason 'of 'this -lconstruction piston b will be 'cushioned at the end ofits stroke, the 'imprisoned air in the otherfend of'l the cylinder 'escaping at 'a controlled 'speed through port 61 to pipe Qld and'by exhaust port d10-Z5 to the atmosphere. 7'I'h'eacivantage yoi this construction 'and operation 'is that the'monientum of the table 4 is checked at the end of its movemenuso that'themoid arrives under Vthe plunger, the lever 30 engages latch d10, and the several other functions are per'formed without 'shock or ar, by easing up 'the speed of stroke o'f piston b After the glass is cu't ofif the'oper'ator removes his punty rod from arm e, and valvev pipe S willnow `pass vthrough reduced port d8 to the lower lside of valve d2, equalizing the pressure, and valve d2 will' 'at'. once rise when latch d10 is tripped by arm v'30, inserting locking bolt Q2 in socket 23 `atV the'term'inationV of therota'ti'on of the table. Atthe same time port Z4 will supply airto pip'e'lf (Fig. 23)` slightly unseating valve 512 an pressure will pass around valve blz to the interior of cylinder B through port '58, acting on piston b and reversing vmovement of.'

`kin` "turn strikes valve stem h thrusting plunger b and rocker arm b5, pin tbtaking a new hold in the next socket 23 'forjthejnext rotation. A branch pipe '21 of pipe 21d being now brought into circulation with port d* of valve d2, sup lies direct airpressure to the' frontof s eai` operating piston 15 at the Sametime that` air pressure is supplied to cylinder B :by pipe 21,

thereby openingthe shears, as in Figs.` '14 v and l5, ready 'for the next operation. Inimediately at the end ofthe shifting move-j ment of the table, it' is desirable that the plunger cylinder F sha-'ll be erated Aj`t 'o This i's` lower plunger 9 linto the mol accomplished by means of 'the' Release valve H and head 1.--The funcvalve-casing is in the position shown in 5F ig.

9, establishing communication with the atmospliere by ports f4, f5, pressure 'in pipe i is exhausted and head I falls by gravity.

Forthe purpose of rendering this device operative to actuate release or bleeder valve H, head I is provided with a laterally ex tending wing s which is normally raised by air pressure iniipipe e" into range of a pin 4 extending doutwardly fxlom `the table 4, one 1of"such ypins -zbein'g provided for each particular mold, and corresponding to the spacedpositions thereof. Verticall'y reciprocable head I is lowered by vmeans of 'a lspriiig i4 connected at its lowerend vto a retaining pinf5 and arranged somewhat spira-lly around the -outer portion.

of head Iy 'and connected thereto by a pin or attachment t, :so as to effect a twisting or turning movement to head I as it is lowered below pin 4', effecting a similar turning movement Aof the wing 3 outwardly away from the stem 7L' of the release valve H.

A valve or cock 3l is interposed inline of pipe i so `that the operation of valve f2 of the plunger cylinder may be rendered inoperative, by lcutting oif air supply to head I whereby wing i3 ismaintaned in a lowered position until valveBl is opened. This is of advantage whenever itis desired to operate the 'machine without actuating the plunger.

Wing 3 is retained as to its lateral or vertical movement by a loopv or' keeper device v17 (see Figs. 2 and 3). Asthe table is rotated vatthe endl of its intermittent movement,` pin 4 strikes against i3, then being held 4erect by pressure in pipe z" which b ackwardly valve h2 against spring k3, eEe'ctpressure from the cavity f8 of valve casing f,`wliereby valve f2 is shifted over t o the left, as stated, bringing port into register with exhaust'port f4 and with outlet exhaust port f5. (See Fig. 9..) ,Thissh'ifting actionof valve f? also brings port ff" into register wrth supply lport f2 kadmittin direct air `pressure to -the upper side oy plunger 1T `and lowering plin'ig'er 9 into the glass in the mold."

' Timer 'Gf-For the purpose l`| ofretarding the action of the plunger and of piston head in'g release of pressure from pipe h. The p f result of this movement isl to exhaust air 60 to the Arelease of pressure in pipe 912 by un- F", I have provided the timer device G con-- sisting of a cylindrical casing having a piston g on a stem g" extending downwardly through its bottom portion, the upper end of cylinder G having a head g2 provided with an outlet port g3 having a retained check valve g4, and an inlet port g5 having a controlling stem g6 provided. with a .registering port g7. Stem g8 has a downwardly extending arm g8, the terminal of which may be set to the desired degree on the graduated .dial g for accurately controlling the iniiow of atmospheric air through ports g5 and g7 t0 Alimit the downward gravitating travel of head g.

At the lower end of casing G is a check valve g10 having an upwardly extending stem g adapted to be'engaged by the descending head g, unseating the valve against pressure of air and spring gli', if used, and allowing air to exhaust by pipe connection 912 and outlet port gM from the other end of valve casingf, thus allowing air pressure in valve casing f to shift valve fz'over again toward the right, bringing port fA1 into reg-- ister with port f7 and exhaust port f", as stated, allowing exhaust from above piston head F and thus vacating resistance against upward travel of the plunger 10. The timn ing of the action of valve f2 may be thus accurately controlled bythe setting of arm g8 of timer Gf Thus, when valve fzvis shifted over to the left to give air pressure through ports f7- 7 to head F (Fig. 9), the plunger descends and at the same time port f reg-- isters with exhaust ports fte-f5 to the atmosphere, releasing pressure from i e712 and i', allowing the hollow head I to i'a, spring d* pulling it down and at the same time throwing wing s downwardly and around underneath table pin 4', releasing the pin for the next intermittent movement of the .table and at the same time swinging backwardly from engagement with valve stem h', valve 71,2 closing by action of spring z-s, so that circulation through pipe h is closed;

Valve is provided with a transverse port f, like port f6, in communication with main air pressure.` Small circulating ports v release port controlled by valve g10 of timerl Gr and release port of valve I-I, allow of a l f" and f1, which are of less area than the throttled circulation of main air pressure to .reach end of the valve 2 within the casing f.

The object of this is t at timer G and valve 'i H can always exhaust {iuid from one end or the other of valve f2 faster than it .can enter by these small ports f and f1". Main air pressure within casing f will now shift valve f2 back to the position shown'in Fig. 7 due y seating of valve g1o by head g of the timer,

1n connection with elastic pressure of air in pipe h leading to the end of the valve, thus bringing ports f-*f into register with atmospheric ports f5, releasing pressure from top of piston head F". Pipe i2 being now in communication through port f and port f8 with main air pressure supply within casing f, and by branch connection 2" with the under side of piston head F, said head and plunger 9 will rise. At the same time air pressure through main pipe i to hollow head I will lift head I and wing is, in its spring-retracted position, in front of pin 4',

backwardly into normalpoperative position by a spring 38 lagainst a limiting pin 39, and is provided with a terminal handle portion 40. The purposeofthis construction is to enable the operator to at any time throw.

latch 36 outwardly frommegistering position with relation to plunger g', so that in the event of plunger 9 being arrested by chilled glass in the mold, or for any other reason, the latchmay be thrown out to allow plunger g to descend suiliciently far to insure actuation of release valve g1, to provide for shifting of valve f to the position'shown in Fig. 6, to rovi e for release of pressure fromcylin er F to ports fuit-f". In normal operatiomhowever, latch 36 descending ahead of plunger g', said plunger will per` form its functions in unseating valve g10 and then fall to operative position slightly above latch 36 for the next operation. This construction enables the operator td lift the plunger g manually above the latch, and to again place' the latch underneath the plunger in thev manner described,l in pase of chilled glass or other. obstruction,- to thel normal operation of the machine. n

Operation-The operation is as fellows: Compressed air havingbeen supplied tothe machine, thel operator gathers Ia lump of glassl on the^end or his punty rod, dropping av predetermined uantity into the mold` under the shears, an when such predetermined quantity has been lowered into the mold, he

touches the small lever e of initiating valve E with his punty rod.. This immediate7 causes valve d2 witbincasing D to, fa

admitting air to rear of shear cylinder, closing the shears and cutting oil' they, glass. Meanwhile the air in table shifting mechanis'ln vhas been retarded from acting immediately by the retarding. mechanism described,

and after a slight delay, the table is then` partially revolved, bringing the charged mold beneath the plunger and simultaneously the next empty mold under the shear. The table being locked, the valve mecha-msm controlling the operation of the plunger cyl-A inder is actuated and the plunger descends into the mold and more or less fully (fills the cavity. The pressure is more or less` reduced, or entirely removed, or maintained equally, or slightly increased, by adjustment of thecontrolling valve mechanism in casing f1.1 at the end'of casing f, depending on the shape of the article to be formed, the nature of the glass and other conditions that might arise. The object in view is to imitate the j action or touch of the human operator hanwith an inwardly dispsed -stem-a dling the lever of a hand-operated machine.v

When the operator pulls on the lever until he lls the mold full with glass, or nearly so, he then slightly and slowly increases the pressure, maintains it at the same point,

slightly reduces it, or entirely removes it,`

meanwhile holding the plunger in 'the glass to set the ware properly, holding it there a predetermined time, depending on the article to be formed, and then withdraws it. After the plunger has remained in the glass apredetermined time, depending on the adjustment of g8, it is withdrawn and the machine .is ready for the next charge of glass, as previously described. The pressed article is then allowed to set in the mold a longer or shorter time, depending on the ware made,

and is either transferred to a blow-mold to be blown into shape, or may be removed from the mold in the completed state.

What I claim is:

1. The combination with the plunger of an glass press and its piston and cylinder, of a' casing mounted on said cylinder, a Huid-actuated controlling valve in said casing operable to regulate supply and exhaust to and from said cylinder, a plunger casing on the end of the valve casing in fluid communica-- tion therewith and provided with a valve controlled outlet plunger therein rovided daipted to abut against said controlling valve, and a fluid conduit connecting the plunger casing with the cylinder above its piston for actuating said plunger and its stem dependent on the resistance to the plunger in the mold. 2. The combination with the plun er of a glass press and its piston and cylin er, ofv a superimposed, valve casing, a fluid actu-4 ated controlling valve therein, an abutting plunger therefor, a casing for said plunger in fluid communication with said valve casing and provided with a valve controlled outlet, and a fluid pressure connection between the upper portion of the cylinder and the plunger casing adapted to transmit accumulated pressure from above the piston 'to the valve plunger upon the glass press plunger encountering resistance of the glass in the mold.

y 3. The combination with theplunger cylinder and its piston, of a superimposed supply and exhaust controlling valve, means for exhaustingpressure from either end of said valve to effect shifting thereof, and a supplemental fluid-actuated plunger and a casing therefor at one end of said controlling valve provided with an adjustable limiting set screw foi' said plunger to arrest its movement away from said controlling valve and to locate its inner end with relation thereto.

4.-. The combination with the plunger cylinder and its piston, of a supply and exhaust controlling valve, means for exhausting pressure-from either end of said valve to effect shifting, and a device operable to effect reverse movement of the valve controlled by pressure within the plunger cylinder.

5. The combination with the plunger cylinder and lts piston, of a supply and exhaust controlling valve, means for exhausting pressure from either end of said valve to effect shifting, and a shiftable head subject to pressure from within the cylinder adapted to reverse the controlling valve.

6. The combination with the plunger cylinder and its piston, of a supply and exhaust controlling valve having ports leading to each end, a casing therefor, pressure 4reducing connections at each end of said -in vhaving an adjustable stem extending through an air circulation opening in the Valve casing and adapted to shift the valve.

S. The combination with the plunger cylvinder and its piston, of a supply and exhaust controlling valve having ports leading to each end, a casing therefor, pressure reducing connections at each endvof said casing, a supplemental chamber at one end-of the valve casing communicating with the interior of the cylinder, a shiftable head therein having a stem extending through an air circulation opening in the end of the valve casing and adapted to shift the valve, and

a check valve controlled port leading fromv the inner side of said head to the atmosphere.

9. The combination with the plunger cylinder and lits piston, of a supply and exhaust controlling valve having ports leading to each end, a casing therefor, pressure ro ducing, connections at each end of said casing, a supplemental chamberat one end of the valve casing communicating With-,the interior of the cylinder, a shiftable head therein having a stem extending through an air circulation opening in the end of the valve casing and adapted to shift the valve, a port leading from the inner side of said head to the atmosphere, and a spring-pressed valve therefor. a

10. The combination with the plunger cylinder and its piston, of a supply and exhaust controlling valve having ports leading to each end, a casing therefor, pressure reducing connections at each end. of said casing, a supplemental chamber at one end of the valve casing communicating with the interior of the cylinder, a shiftable head there- A in having a stem extending through an air circulation opening in the end of the valve casing and adapted to shift the valve, a port leading from the inner side of said head to the atmosphere, a spring pressed valve therefor, and an adjusting screw for adjusting the springl pressure thereof.

11. In an apparatus for pressing glass articles, a plunger cylinder having a plunger piston, a balanced valve controlling the supply and exhaust of air to and from said cylinder, automatically operative pressure release valves operable to release pressure from either end. of the balanced valve to effeet shifting of the valve toward said end, a fluid-actuated shifting plunger adapted to engage one end of theI balanced valve, and a limiting device therefor adapted to arrest movement of said plunger backvvardly from said balanced valve.

12. In an apparatus for pressing glass articles, a plunger cylinderhavingaplunger piston, a balanced valve controlling the supply and exhaust of air to and from said cylinder, an automatically operated pressure release valve operable to release-pressure from one end of the valve to efl'ect shifting of the valve toward said end, anda reverse shifting device operable by pressure from Within the plunger cylinder.

13. In an apparatus for pressing glass articles, the combination yof a plunger cylinder and piston, a supply and exhaust valve therefor, a rotatable mold table, and a release valve actuated by the table connected With one end of said valve adapted to effect shifting thereof to admit pressure to the plunger piston.

14. In an apparatus for pressing glass articles, thecombination of a plunger cylinder and piston, a supply and exhaust valve therefor, a rotatable mold table having radial abutments, a release valve communicat- G5 ing with one end of said valve having` a projecting stem, and a 4pressure controlled adjustable device communicating with the supply and exhaust valve adapted to transmit movement from one of said radial abut= mente lto the stem ofthe release Valve.

15. In an apparatus for pressing glass articles, the combination of a plunger cylin-v der and piston, a supply and exhaust valve therefor, a rotatable mold table having ra'n dial abutments, a release valve communieating with one end of said valve having a projecting stem, and a pressure controlled adjustable device communicating with the supply and exhaust valve adapted to transmit movement from one of said radial abutments to the stem of the release valve and to be Withdrawn for continued movement of said abutment lWith the table.

16. In an apparatus for 'pressing glass articles, the combination of a plunger cylinder and piston, a supply and exhaust valve therefor, a rotatable mold table having` a projecting pin, a release valve connected with. one end of the supply and exhaust valve having a projecting stem, a vertically movable head normally erected by air pressure connection with the supply and exhaust valve and having-a wingadap'ted to impart movement from the pin of the table tothe stem of the release valve.

17. 'In an apparatus for pressing glass articles, the combination of aplun-ger cylinder and piston, a supply and exhaust valve therefor, a rotatable mold table having a 1010` 4 der and piston, a supplyandexhaust valve therefor, a rotatable mold table 'having' a projecting pin, a release valve connected with one end of the supply and exhaust` valve having a projecting stem, a vertically/15 movable head normally erected by air pressure connection with the supply and exhaust valve and having a Wing adaptedto impart kmovement from the pin'of the table to the stem of the release valve, and atorsion spring adapted to impart downward and rotatable movement to said head and Wing.

19. In an ap aratus for pressing glass articles, the com ination with a plunger-actuating cylinden'of a valve controlling circulation thereto, a conduit for exhausting' pressure from one end of the valve to effect f its shifting, a valve 4 for soidconduit hav. l

ing, a gravitating spindle, a piston thereon adapted to unseat the check valve, and means controlling inflow of air above the piston, substantially as set forth.

21. The combination with the cylinder and its valve, of a timer devlce consisting of an apertured casing having a check valve controlling flow from one end of the cylinder valve to the interior of the casing, a gravitating spindle, a piston'thereon adapted to unseat the check valve, an air inlet port opening into the casing above the piston, and an adjustable stem having a port registering with said port.

22. The combination with the plunger cylinder and its valve, of a timer device consisting of an apertured casing having a check valve controlling flow from one end of the cylinder valve to the interior of the casing, a gravitating spindle, a piston thereon adapted to unseat the check valve, an air inlet port opening into the casing above the piston, and an adjustable stem havinga port registering with said port and an indicating arm, substantially as set forth.

23. The combination with the plunger cylinder and its valve, of a timer device consisting of an' apertured casing havin a. check valve controlling liow from one en of the cylinder valve to the interior of the cas,- ing, a gravitating spindle, a piston thereon adapted to unseat the check valve, an air inlet port opening into the casing above the piston, an adjustable stem having a port .v

plunger registering with said port and an indicating arm, and an outlet port above the piston having a check valve, substantially as set forth.

24. The combination with the plunger cylinder, piston and plunger stem, plunger cylinder valve, timer device and its valvecontrolled connection with said valve, and the gravitating spindle of the timer; of an arm secured to the,` plunger spindle having an adjustable latch adapted to engage underneath the spindle and to be thrown out from engagement therewith. l

25. In a glass pressing machine having a mold carrier, a plunger, and actuating mechanism therefor depending on movement of the mold carrier, means for rendering the plunger and its actuating mechanism inoperative independent of the mold carrier.

26. In a glass pressing machine having a mold carrier, a plunger, an actuating plunger head and cylinder therefor, a controlling valve for said cylinder, a pressure supply connection thereto, an exhaust conduit therefrom having a release valve, an independent pressure pipe connected with the plunger cylinder valve and with the opposite end of the plunger cylinder and having at its terminal a vertically reciprocable y pressure-actuated head adapted to be engaged by an abutment on the mold carrier and to be brought into operative engagement with said release valve, and a cut-out valve in-said pressure pipe for rendering said pressure-actuated head inoperative.

In testimony whereof I hereunto affix my signature in the presence of two witnesses.

WILLIAM J. MILLER. Witnesses:

l H. HECK, A C. M. CLARKE. 

